The location of the ALOHA measurement site. Photo courtesy of the University of Hawai’i.

Since 2004, the WHOTS stations have been measuring the interactions between the ocean and the atmosphere, as part of a long term study on ocean circulation. The site where the WHOTS stations are deployed is called ALOHA (A Long-Term Oligotrophic Habitat Assessment), located about 100 kilometers north of Oahu, Hawaii. The ALOHA station, maintained and monitored by the University of Hawai’i since 1988, makes oceanographic measurements (like water temperature, direction and speed of ocean currents, and amounts of plankton). The objective of the project is to use the area as a case study, as it is representative of the North Pacific subtropical gyre.

Diagram of the gyres (circulations) in the North Pacific Ocean. The green circles labeled “WGP” and “EGP” show the locations of the Western and Eastern Garbage Patches. Image courtesy of NOAA’s Pacific Islands Fisheries Science Center.

Diagram of the WHOTS station. Notice how many instruments are on the mooring line, below the surface! Photo courtesy of the University of Hawai’i.

WHOTS stations are moored (anchored) buoys. The buoy includes instruments floating on the surface to measure the weather (air temperature, wind speed, relative humidity, etc.), and there are also instruments along the mooring line to measure things like water temperature, currents and salinity. The instruments below the surface make measurements at the same time asthe meteorological measurements on the surface, so that air and sea interactions can be accurately studied.

Scientists from the Woods Hole Oceanographic Institution visit the ALOHA site every year, to deploy a new WHOTS station, and retrieve older ones. Check out this video of the WHOTS-13 research cruise!

… the Teacher:

The summer I turned five, my house was struck by lightning. The bolt blew out my window, scattering glass shards across my bed, blasted chunks of concrete out of the driveway below, and set the garage on fire — which was almost immediately put out by torrential rain. I have been fascinated by the atmosphere ever since. When I learned I had been chosen for the WHOTS-14 research cruise, I was ecstatic. Not only because I’d been selected to participate in such an amazing opportunity, but because I would have the chance to learn more about the oceans, and how they interact with the ocean of air above them.

PAIHS Monroe students measuring water vapor and aerosols in the atmosphere, November 2016. Photo by SJ Adams.

I have taught science in New York City for eight years. For the past six years, I have taught twelfth grade geoscience at Pan American International High School at the James Monroe campus (PAIHS Monroe), in the Bronx. Each year, I do my best to get my students as excited about science as I am. For the past few years, that has meant dragging them outside in near-freezing temperatures to measure the local air quality. (So, maybe not the best method I could have chosen!)

These measurements were made as part of NASA GLOBE‘s Air Quality Student Research Campaign, and I was able to present their work at NASA Langley Research Center.

I hope that my experiences aboard the Hi’ialakai with the WHOTS-14 research cruise will teach me more about the ocean of air we live in, and help me develop more — warmer — ways to get my students interested in science!

PAIHS Monroe students studied a method of measuring water vapor in the air with an infrared thermometer as part of NASA GLOBE’s Air Quality Student Research Campaign.

Did You Know?

From NOAA’s Office of Marine and Aviation operations page: “Hi‘ialakai is a combination of Hawaiian words. Hi‘i means “to hold in one’s arms”; ala is route; and kai is the sea. Thus, NOAA named this ship to signify “embracing pathways to the sea”.”

One of the primary objectives of this WHOTS project is to deploy WHOTS-13 mooring. This will be accomplished on our second day at sea.

Site of Mooring-13 (courtesy of WHOTS Project Instructions)

The mooring site was chosen because it is far enough away from Hawaii so that it is not influenced by the landmasses. Mooring 13 will be located near mooring 12 in the North Pacific Ocean where the Northeast Trade Winds blow. Data collected from the moorings will be used to better understand the interactions between the atmosphere and the ocean. Instruments on the buoy record atmospheric conditions and instruments attached to the mooring line record oceanic conditions.

A look at interactions between the atmosphere and the ocean. [R. Weller, WHOI]

There is a lot more going on than just plopping a mooring in the sea. Chief Scientist Al Plueddemann from Woods Hole Oceanographic Institution and his team began in-port prep work on June 16th. This included loading, positioning and securing the scientific equipment on the ship. A meteorological system needed to be installed on the Hi’ialakai to collect data critical to the mission. And then there was the assembly of the buoy which had been shipped to Hawaii in pieces. Once assembled, the sensors on the buoy were tested.

Meteorological Station

As we left Oahu, we stopped to perform a CTD (conductivity/temperature/depth) cast. This allowed for the testing of the equipment and once water samples were collected, the calibration of the conductivity sensors occurred.

Sunday, June 26th, was the day of deployment. Beginning very early in the morning, equipment was arranged on deck to make deployment efficient as possible. And the science team mentally prepared for the day’s task.

The deck before deployment began. The buoy is the blue item on the left.

Promptly at 7:30 am, deployment began. The first stage was to deploy the top 47 meters of the mooring with sensing instruments called microcats attached at 5 meter intervals. A microcats has a memory card and will collect temperature, conductivity and pressure data about every three minutes until the mooring is removed next year.

Microcats for recording oceanic conditions

Microcats readied for deployment. They are lined up on the deck based on their deployment depth.

This portion of the mooring is then attached to the surface buoy, which is lifted by a crane and lowered overboard. More of the mooring with instruments is lowered over the stern.

The remainder of the mooring is composed of wire, nylon, 68 glass balls and an anchor. At one point, the mooring wire became damaged. To solve this problem, marine technicians and crew removed the damaged portions and replaced the section with wire from a new spool. This process delayed the completion of mooring deployment but it showed how problems can be solved even when far out at sea.

After dinner, the nylon section of the rope was deployed. Amazingly, this section is more than 2000 meters long and will be hand deployed followed by a section of 1500 m colmega line. It was dark by the time this portion was in the water. 68 glass floats were then attached and moved into the water. These floats will help in the recovery of the mooring next year. The attachment to the anchor was readied.

These glass floats will help when the mooring is recovered next year.

The anchor weighs 9300 pounds on deck and will sit at a depth of 4756 meters. That is nearly 3 miles below the ocean surface. The crane is used to lift the anchor overboard. The anchor will drop at 1.6 m/s and may take about 50 minutes to reach the bottom. As the anchor sinks, the wire, nylon and the rest of the mooring will be pulled down. Once it reaches the bottom, the mooring will be roughly vertical from the buoy to the anchor.

Mooring Structure

Personal Log

I sailed aboard NOAA ship Oscar Dyson in 2013 so I already had a general idea of what life aboard a ship would be. Both ships have workout areas, laundry facilities, lounges, and of course messes where we all eat. But on the Hi’ialakai, I am less likely to get lost because of the layout. A door that goes up is near a door that goes down.

On our first day aboard, we held two safety drills. The first was the abandon ship drill. As soon as we heard 6 short and 1 long whistles, we grabbed our life jacket, survival suit and a hat. We reported to our muster stations. I am assigned to lifeboat #1 and I report the starboard side of 0-3 deck ( 2 levels up from my room). Once I arrived, a NOAA officer began taking role and told us to don the survival suit. This being my first time putting the suit on, I was excited. But that didn’t last long. Getting the legs on after taking off shoes was easy as was putting one arm in. After that, it was challenging. It was about 84 F outside. The suit is made of neoprene. And my hands were the shapes of mittens so imagine trying to zip it up. I finally was successful and suffered a bit to get a few photos. This was followed by a lesson for how to release the lifeboats. There are enough lifeboats on each side of the ship, to hold 150% of the capacity on board.

Abandon Ship drill with Survival Suit

Safety is an important aspect of living aboard a NOAA ship. It is critical to practice drills just like we do at school. So when something does happen, everyone knows what to do. A long whistle signals a fire. All of the scientists report to the Dry Lab for a head count and to wait for further instruction.

I am reminded of how small our world really is. At dinner Saturday, I discovered one of the new NOAA officers was from Cottage Grove, Oregon. Cottage Grove is just a short drive south of Eugene. She had a friend of mine as her calculus teacher. Then a research associate asked me if I knew a kid, who had graduated from South Eugene High School and swam in Virginia. I did. He had not only been in my class but also swam with my oldest son on a number of relay teams growing up. Small world indeed.

Did You Know?

The Hi’ialakai was once a Navy surveillance ship (USNS Vindicator) during the Cold War. NOAA acquired it in 2001 and converted it to support oceanic research.

Mission: Right Whale SurveyGeographical area of cruise: Northeast Atlantic OceanDate: May 3, 2015

Personal Log

Hello from South Dakota! My name is Kelly Dilliard and I am a college professor at Wayne State College (WSC) in Wayne, NE. Wayne State College is one of three schools with the Nebraska State College System and it is located in northeast Nebraska. I actually live in Vermillion, South Dakota, due north of Wayne and commute to school every day. My husband, Mark Sweeney, is an Earth Science Professor at the University of South Dakota in Vermillion. We are located about 45 minutes northwest from Sioux City, Iowa and about an hour south of South Falls, South Dakota.

Map of eastern Nebraska and parts of Iowa and South Dakota showing locations of where I am coming from.

Me at a cove beach near Malibu, California in July of 2014. Taking lots of photographs and videos to use in my teaching.

I teach all sorts of Earth Science courses at WSC including Introduction to Geology, Environmental Geology, Historical Geology, Rocks and Minerals, Oceanography, and Introduction to Meteorology. I try to create a hands-on experience for my students, but teaching in Nebraska has its drawbacks. We are far from some of the best geology sites and from the ocean, so instead of taking my students to the rocks or the ocean, I try to bring the rocks to my students in the form of specimens, photographs, and videos. I believe that my students benefit from exposure to these samples and from the experiences that I bring into the classroom. I hope this experience out at sea will help me bring more of the ocean to them. As I teach mostly to future science teachers, I also hope this experience will open them up to taking similar opportunities to gain useful experiences to use in their own classroom.

My husband, Mark, myself, and our puggle, Penny Lane, at Black Canyon of the Gunnison National Park, Colorado, July of 2014.

As a youngster I had an interest in two sciences… geology and oceanography. I spent time in Hawaii when I was in fourth grade and fell in love with volcanoes and humpback whales. When it came to deciding on a major in college, I decided on geology and I have been actively engaged in researching and teaching about the Earth for the past 20 years. I am originally from eastern Pennsylvania, but through my graduate and professional career have lived in various states across the United States. I have three degrees in Geology, including a PhD from Washington State University.

My brother and I in April of 1986 standing by the map of the “Save the Whales” walk we took part in.

While I have an interest in oceanography and teach an oceanography class, I have never actually taken a formal oceanography course. I applied to the NOAA (National Oceanic and Atmospheric Administration) Teacher at Sea (TAS) program to gain some ocean research experience and to bring that experience back into my classroom. The Teacher at Sea program is celebrating it’s 25th Anniversary this year and is, as I am finding out, a wonderful program (link to TAS program)! I was selected to take part in a Right Whale Survey off the Northeast Coast on board the NOAA ship the Gordon Gunter (see the ship’s website for information and photographs). I never dreamed that I would also be getting exposed to a “what could have been” experience, that is, if I had decided to study oceanography and whales 20 years ago as an undergraduate.

So let me tell you a little about what I have learned so far about the North Atlantic Right Whale. The North Atlantic Right Whale (Eubalaena glacialis) is an endangered species and is protected under both the U.S Endangered Species Act and the Marine Mammal Protection Act. Right whales were heavily targeted by whale hunters, being prized for their high blubber content, the fact that they float when killed, and their relative sluggishness. They were the “right” whale to hunt. Right whales are baleen whales like the humpback whale, but feed mainly by skimming through prey at or near the surface of the ocean. Right whales are recognized by their callosities, or rough skin (white in color due to whale lice!), on their heads. For more information on Right Whales check out the NOAA Fisheries article on them.

North Atlantic Right Whales. You can see their callosities. Photo credit: NOAA Fisheries

Next week I will be flying to Boston, Massachusetts and meeting up with the Gordon Gunter at the Woods Hole Oceanographic Institute. But before then, I have to finish off the semester, participate at the WSC graduation, put in my garden (hopefully), and pack for my trip. The next time you should hear from me, I should be aboard the Gordon Gunter.

Map indicating where I live/work and where I will be leaving from for the Right Whale Survey.

Meet some of my favorite people in the world. Without these people my experience would have lacked the learning and laughter that made it such a joy.

Kristin Hannan

Field Party Chief Kristin Hannan has the pleasure of working with her favorite shark species, the Tiger Shark. And those little babies are cute!

Kristin was the Field Party Chief for the first and second legs of the Longline survey. She was also my watch leader, which meant she was by my side in support every step of the way. And as I progressed as a shark handler, she was there with a high five every time. I hit the jackpot landing on a ship with Kristin. She is now off to visit Harry Potter World (I’m so jealous I can hardly stand it) before rejoining the the survey when it leaves Mayport. This is Kristin’s fifth year doing the Longline Survey. The first time she did it, she was a volunteer just like us. I wish Kristin the best of luck in all she does and hope to call her a friend for years to come.

Amy Schmitt

Research Biologist for NOAA Amy Schmitt gives a big smooch to a baby Tiger Shark.

Amy is a research biologist out of the Pascagoula-based fisheries lab. She has been with NOAA for two years, but has been working in research biology for most of her career. She is a native of Colorado and shares my blond hair and fair complexion. We could usually be found together cooling off in the dry lab as often as possible. It was also Amy who coined one of my nicknames on the cruise – Data Girl. According to the science team, the Teachers at Sea make excellent data recorders. I can’t imagine why 🙂

Amy and I work together to process an adolescent Tiger Shark. Amy and I often worked together and truly enjoyed our time together.

Lisa Jones

NOAA scientist and Field Party Chief for the third and fourth legs of Longline, Lisa Jones handles an Atlantic Sharpnose on the first haul of the night shift.

Lisa has been doing the Longline survey for 16 years now. She is a wealth of information about sharks, living aboard a ship, and marine life. She is also a passionate dog lover, which many of the volunteers shared with her. Lisa will be taking over the duties of Field Party Chief for the third and fourth legs of the survey. She will be aboard the Oregon II for all four legs of the survey this year. That’s a lot of boat rocking!

Mike Hendon

NOAA Research Biologist Mike Hendon works to quickly process a Sandbar Shark.

Mike is a research biologist out of the Pascagoula-based fisheries lab. He’s a seasoned veteran of the Longline survey and was a great mentor for those of us new to the shark-handling community. Mike also has two adorable kids and two cute dogs waiting for him at home. He was part of the science team for the first leg of the survey. He can sometimes be found wearing mismatched socks.

Mike and Volunteer Claudia Friess work on Atlantic Sharpnose.

Personal Log

My final days are winding down and I am caught (no pun intended) off guard by how much I am going to miss this. There is such a peacefulness that comes from the rocking of a boat, especially if you don’t get seasick. And working alongside people who share a passionate nature – we may not all be passionate about the same things, but we are all passionate – is such a reinvigorating experience. These two weeks gave me an opportunity to talk about my environmental science integration in my classroom with people who care very much about environmental science. It was so inspiring to have them care about what I was doing in my classroom. It gives me another reason to trust the importance of what I’m doing as well as more people I want to make proud.

Fun list time! Things you get used to living on a ship:

Noise. There is so much happening on a ship, from the engine to the cradle pulling up a shark. It’s all loud. But you get used to it.

Sneaking into your stateroom as silently as possible so you don’t wake up your AWESOME roommate Rachel.

Waiting. There’s a lot of waiting time on a survey like this. You find ways to make that time meaningful.

The night shift waiting in anticipation as Lead Fisherman Chris Nichols begins to bring in the line.

Rocking. Duh.

Taking high steps through doorways. The doors that separate the interior and exterior of the ship are water tight, so they don’t go all the way to the floor. You can only bash your shins in so many times before it becomes second nature.

Sharks. I said in a previous post that this survey has been eye opening and it’s worth sharing again. I don’t have a marine science background and I had fallen victim to the media portrayals of sharks. I had no idea that there were sharks as small as the Sharpnose that can be handled by such an amateur like myself.

This is what it feels like when you successfully (and quickly) unhook a shark! VICTORY! Volunteer Kevin Travis is victorious.

Sunsets. Words cannot describe the colors that make their way to you when there’s uninterrupted skyline. Oh I will definitely miss those sunsets.

One of the last sunsets for the first leg of the Oregon II.

The stars. I live a life of being asleep by 10pm and up at 6 am and often times forget to look up at the stars even on the nights when I might have been able to see them. These two weeks gave me some of the darkest nights I’ve had and some of the best company in the world.

Dolphins escort the Oregon II back towards land on its final day at sea for the first leg of Longline.Photo Credit: Mike Hendon

Mission:Ecosystem Monitoring SurveyDate: 6/13/13Geographical area of cruise: The continental shelf from north of Cape Hatteras, NC, including Georges Bank and the Gulf of Maine, to the Nova Scotia Shelf

Why study plankton? Plankton are at the bottom of the food chain. Remember they are free floating organisms that drift with the currents. That means that they provide food for many other animals and those animals are then eaten by larger animals and so on. Therefore, plankton are important in the fact that if something happens to them, then the whole food chain is affected.

So researchers are interested in learning all about the different types of plankton, their distribution and abundance in the ocean. They want to answer questions such as: Have these factors changed over time? Are we finding different kinds of plankton in different locations? Has the amount of plankton changed? How do the changes in the abundance and species of plankton affect higher trophic (feeding) levels?

Types of Plankton:

Phytoplankton on the surface of the water.

Phytoplankton – The plants of the sea. They carry out photosynthesis, so they are found in the water column where light is able to reach. This can vary depending on how clear the water is. If water is very clear, they can be found at deeper levels because the light can penetrate farther. These are the primary producers of the ocean, providing food for the first order consumers – mainly some types of zooplankton.

Amphipods, the two larger organims, and Copepods, the pink organisms– some of the many types of zooplankton we are finding.

Zooplankton – Animal-like plankton. These vary immensely by size, type, and location. They are classified by their taxonomy, size, and how long they stay planktonic (some only are planktonic in a larval stage where others are for their entire life) . These plankton are consumers with some eating the phytoplankton and others eating other zooplankton. These are extremely important as larger consumers eat them and then even larger organisms eat these.

Fish larvae in among some copepods.

Icthyoplankton – Fish larvae or eggs. These float and drift in the water and, therefore, are considered planktonic. Since these are only planktonic for part of their life, they are called meroplankton. Organisms that are planktonic their entire life are called holoplankton.

Vocabulary:

Plankton – free floating organisms that drift with the current.

Trophic level – position an organism occupies in the food chain.

Taxonomy – how scientists classify organisms.

Holoplankton – organisms that are planktonic their entire lives.

Meroplankton – organisms that are planktonic for only part of their lives.

I interviewed our lead scientist onboard the Gordon Gunter who studies plankton:

Lead Scientist – Chris Melrose

Name: Chris Melrose

What is your Position? Research Oceanographer

What do you do? Principal investigator on the Northeast Fisheries’ Ship of Opportunity project. We collect data from merchant vessels that are crossing areas that we are interested in. I also work on the Ecosystem Monitoring Surveys where my main area of interest is primary production and phytoplankton. They are the base of the food web and tell you a lot about the functioning of a marine ecosystem. Much of my work was in coastal regions where there were concerns about eutrophication, the enhanced primary production due to inputs of nutrients from pollution.

Why is your work so important? We are studying the planet we all live on and we are in a period of environmental change. Long term monitoring programs, like this one, allow us to compare data from the present with the past to see how things have changed and also helps us to make predictions about what will happen in the future.

Why did you decide to become a marine scientist and work with NOAA and ocean science? I grew up on the island of Martha’s Vineyard and always had an interest in the ocean. It was a hobby, but now it’s a career.

What do you enjoy most? I like science and being able to be out in the field – it is more of an adventure than just being in a lab.

What part of your job is most unexpected? When you are out in the ocean, there are always surprises – nature, weather or difficulties with ships, so you always have to be ready to adapt.

How long have you worked for NOAA and as a marine scientist? From 1998 to 2004 I was with NOAA as a graduate student, from 2004 to 2010 as a contract employee and in 2011 I became a full-time employee.

What is your favorite type of plankton? Diatoms because they have so many different shapes and geometric designs.

What is your favorite marine animal? Octopus as they are clever and it is amazing how they can change their color and shape.

If a student is interested in pursuing a career in marine science, what would you suggest to them? Science and math are very important and you would need to attend graduate school.

What type of education do you need? At least a master’s degree to become a research scientist.

Spraying down the Bongo nets – photo by Chris Melrose.

Personal Log:

I am now getting use to my shift, noon to midnight. At each station we put out the Bongo nets or Rosettes (more often the Bongos) and then we have to wash them down and strain out the plankton in a sieve to be saved later for the research. It gets a little harder and colder towards the end of the shift, but it has been very interesting seeing all the variety of plankton we are finding and how it changes from station to station.

Waves were a little higher during a very foggy day on the Gordon Gunter.

Yesterday was very foggy and a little more rocky. It was very hard to see anything, but still beautiful to look at the ocean around us. Today it is clearer, but still somewhat rocky. Sightings have been few, but we were able to catch some whales in the distance by seeing them “blow” – spirt out water through their blow holes. A Storm is on the forecast and we have had to change our route. We will not be going as far east as planned and will head north to avoid the main barrage of the storm.

The ocean is such an amazing place, with all its life and vastness. It makes you realize just how small you are and how big the world really is!

Sunset off the stern of the Gordon Gunter.

Euphausid- commonly known as krill

Did you know? Many types of whales feed exclusively on euphausid (or krill), a shrimp like zooplankton.

Mission:Ecosystem Monitoring SurveyDate: 6/9/2013Geographical area of cruise: The continental shelf from north of Cape Hatteras, NC, including Georges Bank and the Gulf of Maine, to the Nova Scotia Shelf

Since we have been delayed in sailing, I have had the opportunity to interview several of the crew sailing with the Gordon Gunter to learn more about working at sea and in the marine sciences. Sailing one of the NOAA vessels for scientific research requires personnel from many different disciplines including the: scientists, NOAA Corps officers, engineers, ship stewards, fishermen, deck hands, computer and electronics personnel, bird and mammal observers, and others. I will continue to interview personnel and add them to my future blogs.

Interviews:

Lab Technician, Cristina Bascuñán

1. Name: Cristina Bascuñán

What is your Position? Lab Technician

What do you do? I’m in charge of the Rosette CTD (Conductivity, Temperature and Depth) equipment and Sea-Bird equipment. I schedule them for the different surveys and send them out for maintenance.

Why did you decide to work with NOAA and ocean science? As a sophomore in college I started volunteering and loved it, so I volunteered for several more surveys and then went out to sea on a NOAA cruise and loved that. I was doing 2 trips a summer. Around that time I got hold of an oceanography branch chief of NOAA who was in need of a lab technician and the rest is history.

How long have you worked for NOAA? I have worked for NOAA for 16 years. I volunteered for 3 years initially and was 19 on my first trip.

What do you enjoy most? Meeting all the different people on the various cruises

What would you like to change? During long trips I miss the comforts of home.

If not working for NOAA, what would you do? I would be an architect.

What outside hobbies do you have? When out at sea, I like to knit. At home, I’m involved in many water activities like: kayaking, fishing and going out on our skiff (small sailboat).

Where are you from? I have lived on the Cape for 16 years.

What is your favorite marine animal? The Lumpfish – they look like they are made out of rubber.

What is the most unusual thing you have seen or found at sea? While out doing a MOCNESS (Multiple Opening/Closing Net and Environmental Sensing System and is a net system for plankton in the ocean), we brought up a bunch of bones and some carrots. Our group could not figure out where this could have come from or what animal the bones were from. We found out later, that the Steward (meal preparation person) had tossed the slop basket from dinner into the sea and that’s what we brought up!

If a student is interested in pursuing a career in marine science, what would you suggest to them? Get experience and go out to sea on a research vessel to see if it is something you would like to do for a career.

Operations Officer, Marc Weekley

2. Name: Marc Weekely

What is your Position? Operations Officer onboard the Gordon Gunter

What do you do? I am the liaison between the operational side of the ship and the science party, making sure that what the scientists want to accomplish gets done.

Why did you decide to go into the NOAA Corps and ocean science? I have a B.S. in environmental science. In 2004, 2005 I found out about the NOAA Corps and it was a good way to mix the operational side with the science I already had. All NOAA Corps officers have to do watches and get the ship to where the scientists need to go, which includes ship driving and navigation, which I also liked.

How long have you worked for NOAA? I was commissioned in 2006.

What do you enjoy most? The variety of operations, science, and projects that are available and learning about the different scientific research. The routine is always new and fresh and you can transfer to new ones frequently. For example, in the NOAA Corps you spend 2 years in the field on a ship and 2-3 years on a land assignment. I was in Antarctic in 2009 doing atmospheric research on air quality monitoring.

What would you like to change? Some of the assignments are only once in a lifetime and cannot return to them like going back to the South Pole.

What part of your job was the most unexpected? When I first entered everything took me by surprise because I was not aware of the scope of the Corps. The opportunities to pursue what I was training for came much sooner than I realized. I was on the bridge controlling and driving a ship much sooner than I expected.

How are people chosen for NOAA ships? For many of the officers you fill out a “wish list” of where you want to go and then assigned according to needs and timing.

If not working in the Corps, what would you do? A job on or in the water.

If a student is interested in pursuing a career with NOAA or in marine science, what would you suggest to them? The Corps is looking for individuals with science, engineering and math backgrounds.

What outside hobbies do you have? Scuba diving and anything outdoors. I tried rock climbing in Boulder before going to the South Pole.

Where are you from? Currently I live in Moss-point, Mississippi, but I’m originally from Texas where my parents still live.

What is your favorite marine animal? Sharks because so little has changed in them over time. Even though they are a very frightening animal, I love to be in the water with them.

What is the most unusual thing you have seen or found at sea? Watching a 20 foot humpback whale full breech (entire body) out of the water is one of the most unusual and amazing things I have seen.

Head Steward, Margaret Coyle

3. Chief Steward: Margaret Coyle

What are some of the skills and experiences a person needs to become a ship’s steward? A person needs good cooking skills, organization, to be personable, and dedicated. This is a career, I’m working 24 hours a day, 7 days a week, 365 days a year. “I live to cook and cook to live”.

What do you like most about your job? The cooking and sailing.

What would you like to change? I hate the paperwork – “If I only had to just cook and order groceries, I would be the happiest person on the planet.”

How long have you been working for NOAA? I have been sailing since I was 20 and cooking for 25 years. I started in the coastguard as an engineer and then went back to school to be a cook. I have been with NOAA for 8 years, 2 months and 7 days.

What do you like most about working on the ocean? The solitude and the lifestyle of just being at sea and having my own space and my galley setup. Having a set schedule is something I like and also the rocking of the ship and the weather.

What part of your job did you least expect to do? When I came here I knew exactly what to expect. Over the years the record keeping requirements have increased, which I did not expect.

How far in advance plan your meals? I have 8 years of menus and keep them all in my computer. I plan my menus by the people we have onboard and how many are going to be at a certain meal. I have to plan and order 7 days in advance and I have to always order dairy and produce when we pull into a new port.

What training or experience would you suggest for high school students if they want to pursue a career as a Steward or other ocean careers? You can go the military route and go through their school for cooking. Take Home Economics in HS and work in a restaurant – that will determine if you like it or hate it.

What advice would you give young people to eat more nutritiously? Eat dinner at a table with your family and have a conversation. Don’t sit in front of the TV or play on a computer. Don’t eat out of a bag instead choose something healthy like an apple.

If you weren’t a ship’s steward, what other career would you like to have? This is my dream job! But if I didn’t cook, I would be a seamstress.

One thing that I have learned in life is that many things are not under your control and you just have to make the best of each situation and be flexible. So even though it has taken several more days to leave port than had been planned, I have had the opportunity to explore the base, visit another NOAA vessel, the Okeanos Explorer, interview several of the staff, and work on my blogs and photography. I have really enjoyed talking with the others onboard and visiting the areas around the base and in Newport, RI.

Stormy day on the Naval Base in Newport, RI

Also by postponing the sailing day, it looks like we missed the bad weather from hurricane Andrea. Friday it was raining constantly in port, so it most likely would have done the same at sea!

NOAA Corps’ Flag.

Did you know? The NOAA Corps is one of the seven uniformed services of the United States. Officers work on one of NOAA’s 19 ships or 12 aircraft in support of the atmospheric and oceanic scientific research that is being carried out on these vessels.

Hello from Annapolis, MD! My name is Gina Henderson and I am very excited about my imminent departure to Boston this coming Saturday as part of the NOAA Teacher at Sea program. In Boston I will rendezvous with the Ronald H. Brown NOAA ship and join the science team to conduct experiments aimed at collecting in situ measurements of ocean-derived aerosols. The purpose of this experiment is to characterize the cloud-nucleating abilities of these aerosols. We also aim to sample atmospheric particles, gases, and surface sea water to assess the impact of ocean emissions on atmospheric composition.

A Little about Me

I am an Assistant Professor in the Oceanography Department at the United States Naval Academy. Here, I teach courses in climate science, physical geography and weather. My research to date has focused on land-atmosphere interactions using computer climate models, understanding the role of snow cover in the hydrologic and global climate system, and the influence of such elements on atmospheric circulation and climate change.

Growing up on the east coast of Ireland, my interest in climatology was awakened from an early age having been exposed to the elements through outdoor pursuits including sailing, travel, and hiking. I have found that sharing my enthusiasm and passion for these sciences, focusing on the application of how they relate to our day-to-day lives and the environment in which we live, is an excellent platform to foster student interest and participation.

Having worked as a sail racing coach in Ireland, and captaining boats in the Caribbean during my undergraduate summers, I was eager to get back to the sport after relocating to Annapolis. Since my arrival at the Academy, I have also been volunteering as a coach for the Varsity Offshore Sailing Team which has been a great experience so far and helped me learn more about my students outside of the classroom.

Going into my second year teaching at the Naval Academy, I am excited to get this opportunity to participate in this NOAA field work campaign. Having spent the last few weeks as the science officer for a Yard Patrol cruise, where we took a group of 17 midshipmen and introduced them to various oceanographic and meteorologic instrumentation on board the Oceanography Department’s dedicated Yard Patrol training vessel, I hope to acquire new fieldwork skills and experiences while aboard the Ron Brown and to use such experiences back in Annapolis.

Prof. Henderson giving some history about sea surface temperature measurement throughout the past 200 years.

The timing of this research cruise coincides with the start of the semester back at the Naval Academy. This semester, I am teaching two sections of the upper level major elective course, Global Climate Change. While it will be challenging to be absent from the classroom for the first two weeks of class, I plan on engaging with my students virtually and as close to real-time as communications allow through this blog.

With this in mind, after a colleague introduces the course policy statement and syllabus next Monday 20 August, I am asking all students to take 10-20 minutes to google the underlined terms in the “Introduction: purpose of this cruise” section above, beginning with the NOAA Teacher at Sea Program. Students should write a brief summary (2-3 sentences) of what they find, focusing on the program goal(s). Students should then research the other underlined terms and write a brief summary (1-2 sentences) of what they should know about these terms from their previous course, SO244: Basic Atmospheric Processes. This assignment will be submitted via email to Prof. Henderson before the beginning of class on Tuesday August 21.